Purpose

The power framework has become a vital part in the day-to-day life and exhibits a rapid development in this current era. Due to the fact of huge power utilization, the power frameworks fall under several power transmission-related concerns. Precisely, frequency deviation has generated a huge impact during power transmission; this in turn highly reduces the power system stability as well as reliability too.

Design/methodology/approach

To boost the system’s efficacy, this study proposes a neoteric closed loop feedback controller in which a control algorithm named correlative-elemental-curvature algorithm is introduced with a constant threshold.

Findings

With the aim of mitigating frequency deviation, a stability analysis technique called Retrofit Lyapunov’s method is deployed in the controller. This would simultaneously reduce the load disturbances along with tie-line synchronization issues faced with the prior controllers. Optimization is carried out with the aid of duelist optimization algorithm, which tunes the controller parameters thereby mitigating the complexities while designing a loop feedback controller power framework.

Originality/value

The efficacy of the proposed work is assessed with the aid of metrics, such as integral absolute error, accuracy and settling time. Thus, the proposed work enhances the system reliability as well as the stability by mitigating the frequency deviation related issues and guarantees reliable power transmission.

中文翻译：

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一种基于相关元曲率算法的新型闭环反馈控制器

目的

电力架构已成为日常生活中的重要组成部分，并在当前时代呈现出快速发展的趋势。由于巨大的电力利用率，电力框架属于几个与电力传输相关的问题。准确地说，频率偏差在电力传输过程中产生了巨大的影响；这反过来也大大降低了电力系统的稳定性和可靠性。

设计/方法/方法

为了提高系统的效率，本研究提出了一种新的闭环反馈控制器，其中引入了一种称为相关元素曲率算法的控制算法，具有恒定的阈值。

发现

为了减轻频率偏差，控制器中部署了一种称为 Retrofit Lyapunov 方法的稳定性分析技术。这将同时减少负载干扰以及现有控制器面临的联络线同步问题。优化是在决斗优化算法的帮助下进行的，该算法调整控制器参数，从而在设计回路反馈控制器电源框架时降低复杂性。

原创性/价值

所提出的工作的有效性是在指标的帮助下评估的，例如积分绝对误差、准确性和稳定时间。因此，所提出的工作通过减轻频率偏差相关问题来提高系统可靠性和稳定性，并保证可靠的电力传输。